CN216194984U - Pile foundation detection equipment for construction acceptance - Google Patents

Abstract

The utility model discloses pile foundation detection equipment for construction acceptance, and relates to the technical field of building correlation. The utility model comprises a detection box, a first hydraulic cylinder, a connecting frame, a base and a vibration seat, wherein the first hydraulic cylinder is arranged at four corners below the detection box, a supporting frame is clamped at the bottom inside the detection box, a measuring scale is fixed at the rear side inside the detection box, the second hydraulic cylinder is connected with a pressing plate through a second hydraulic cylinder driven by the second hydraulic cylinder, the front side of the detection box is connected with a vibration motor through the vibration seat, and the rear side of the detection box is connected with a third hydraulic cylinder through the vibration seat. According to the utility model, by arranging the detection box, the first hydraulic cylinder, the connecting frame, the base and the vibration seat, the problems that the stability of the pile foundation cannot be ensured and the detection of the compressive property and the water absorption of the pile foundation cannot be rapidly finished in the earthquake resistance detection of the pile foundation of the conventional pile foundation detection equipment are solved, so that the stability is better in the earthquake resistance detection of the pile foundation, and the compressive property and the water absorption are rapidly detected.

Description

Pile foundation detection equipment for construction acceptance

Technical Field

The utility model belongs to the technical field of building correlation, and particularly relates to pile foundation detection equipment for construction acceptance.

Background

The deep foundation formed by pile and pile cap (cap for short) connecting pile top or the single pile foundation connected by pile and pile cap, pile cap for short, the pile cap needs to detect its performance after being processed in advance to prevent the nonstandard pile cap from causing building accident after the project construction, but it still has following drawbacks in the actual use:

1. when the existing pile foundation detection equipment detects the seismic performance of a pile foundation, the stability of the pile foundation cannot be ensured, and the accuracy of pile foundation seismic performance detection is reduced;

2. the detection of compressive property and water absorption of the existing pile foundation detection equipment needs a longer flow, and the detection of the compressive property and the water absorption of the pile foundation cannot be completed quickly.

Therefore, the existing pile foundation detection equipment cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide pile foundation detection equipment for construction acceptance, which solves the problems that the stability of a pile foundation cannot be ensured and the detection of the compression resistance and water absorption of the pile foundation cannot be rapidly finished in the earthquake resistance detection of the pile foundation by the conventional pile foundation detection equipment through arranging a detection box, a first hydraulic cylinder, a connecting frame, a base and a vibration seat.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to pile foundation detection equipment for construction acceptance, which comprises a detection box, a first hydraulic cylinder, a connecting frame, a base and a vibration seat, wherein the first hydraulic cylinder is arranged at four corners below the detection box, a support frame is clamped at the bottom inside the detection box, a measuring scale is fixed at the rear side inside the detection box, the two sides of the detection box are connected with second hydraulic cylinders through the connecting frame, the second hydraulic cylinders are connected with a pressing plate through second hydraulic cylinders driven by the second hydraulic cylinders, the front side of the detection box is connected with a vibration motor through the vibration seat, the rear side of the detection box is connected with a third hydraulic cylinder through the vibration seat, the pile foundation is driven to lift in the detection box through the structural matching of the detection box and the first hydraulic cylinders, the pile foundation in the first hydraulic cylinder is pressed through the pressing plate driven by the second hydraulic cylinders connected on the connecting frame, and under the front and rear scale change of a scale block, the compressive property of demonstration pile foundation, through after discharging water and submerging the pile foundation in detecting box, through the hydroscopicity of water level variation detection pile foundation, when the support frame was put to the pile foundation, through third pneumatic cylinder driven hydraulic pressure push pedal, with pile foundation and vibration board compress tightly the back, through vibrating motor drive vibration board vibration, test the anti-seismic performance of pile foundation.

Further, the both sides of detection case all are fixed with the supporting seat, the front side printing of measuring tape has the printing scale, and the resistance to compression and the hydroscopicity of pile foundation are shown through the cooperation of the printing scale on the measuring tape to the detection case.

Further, the inside of support frame is fixed with crosses the water frame, the upper portion swing joint of first pneumatic cylinder has first hydraulic cylinder, first hydraulic cylinder pegs graft in the detection case, the bottom at the support frame is fixed on the top of first hydraulic cylinder, and first pneumatic cylinder drives the pile foundation through its driven support frame and cross the water frame and go up and down in the detection case.

Furthermore, the inside of link is fixed with two second hydraulic cylinders, the inside lower part swing joint of second hydraulic cylinder has the second hydraulic cylinder, the bottom mounting of second hydraulic cylinder has the clamp plate, be fixed with the scale block in the middle of the rear side of clamp plate, the link continues to push down through second hydraulic cylinder driven hydraulic plate and pile foundation contact, and the compressive property of pile foundation is shown in the reading change that corresponds on scale block and measuring tape.

Furthermore, one side that base upper portion is close to the detection case is fixed with two third pneumatic cylinders, the inside swing joint of third pneumatic cylinder has the third hydraulic column, the one end that the third hydraulic column is close to the detection case is fixed with the hydraulic pressure push pedal, and the third hydraulic column through third pneumatic cylinder drive promotes the push pedal, with pile foundation and vibration board chucking.

Further, the upper portion that the vibration seat is close to detection case one side is fixed with two vibrating motors, be fixed with the vibrating mass on vibrating motor's the output shaft, the vibrating mass is placed at the top of detection case, compresses tightly the back with pile foundation and vibration board, through vibrating motor drive vibration board vibration, tests the anti-seismic performance of pile foundation.

The utility model has the following beneficial effects:

1. according to the utility model, the detection box, the first hydraulic cylinder, the base and the vibration seat are arranged, so that the problem that the stability of the pile foundation cannot be ensured in the vibration resistance detection of the pile foundation by the conventional pile foundation detection equipment is solved, the first hydraulic cylinder drives the first hydraulic cylinder, the support frame is driven to the upper part inside the detection box, the third hydraulic cylinder drives the third hydraulic cylinder after the pile foundation is placed, the hydraulic push plate is pushed to push the pile foundation on the support frame to the position of the vibration block, the pile foundation and the vibration block are tightly pressed, and the vibration block driven by the vibration motor vibrates the pile foundation on the support frame, so that the vibration resistance of the pile foundation is detected, the stability of the pile foundation is better when the vibration resistance of the pile foundation is detected, and the interference on the detection result is lower.

2. According to the utility model, the detection box, the first hydraulic cylinder and the connecting frame are arranged, so that the problem that the detection of the compressive property and the water absorption of the pile foundation cannot be rapidly completed is solved, after the anti-seismic property of the pile foundation is detected, the third hydraulic cylinder is driven by the third hydraulic cylinder to move away the hydraulic push plate, the first hydraulic cylinder is driven by the first hydraulic cylinder to drop the support frame to the lower part of the detection box, when the press plate is pressed down to be in contact with the pile foundation by the second hydraulic cylinder driven by the second hydraulic cylinder, the reading of the scale block on the measuring scale is recorded, the compressive property of the pile foundation is detected, then water is discharged into the detection box, and the detection box is kept stand for a period of time, the reading of the water level change on the measuring scale is detected, and the water absorption of the pile foundation is detected, so that the detection of the compressive property and the water absorption of the pile foundation is more rapid and convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of an assembly structure of the present invention;

FIG. 2 is a perspective view of the structure of the detection box of the present invention;

FIG. 3 is a perspective view of a first hydraulic cylinder configuration of the present invention;

FIG. 4 is a rear perspective view of the connecting frame structure of the present invention;

FIG. 5 is a perspective view of a base structure of the present invention;

fig. 6 is a perspective view of the vibration seat structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a detection box; 101. measuring a ruler; 102. printing scales; 103. a supporting seat; 200. a first hydraulic cylinder; 201. a first hydraulic column; 202. a support frame; 203. a water passing frame; 300. a connecting frame; 301. a second hydraulic cylinder; 302. a second hydraulic column; 303. pressing a plate; 304. a scale block; 400. a base; 401. a third hydraulic cylinder; 402. a third hydraulic column; 403. hydraulic push plate; 500. a vibration seat; 501. a vibration motor; 502. the block is vibrated.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-6, the utility model is a pile foundation detection device for construction acceptance, comprising a detection box 100, first hydraulic cylinders 200, a connecting frame 300, a base 400 and a vibration base 500, wherein the first hydraulic cylinders 200 are arranged at four corners below the detection box 100, the detection box 100 receives a pile foundation to be detected therein, the first hydraulic cylinders 200 drive a support frame 202 to lift in the detection box 100, the support frame 202 is clamped at the bottom inside the detection box 100, the pile foundation is supported in the detection box 100 by the support frame 202, a measuring ruler 101 is fixed at the rear side inside the detection box 100, the measuring ruler 101 measures the water level therein and the deformation of a pressure plate 303 after pressure test of the pressure plate 303, the two sides of the detection box 100 are connected with second hydraulic cylinders 301 through the connecting frame 300, the detection box 100 presses the pile foundation received in the detection box 100 through the pressure plate 303 driven by the second hydraulic cylinders 301, second pneumatic cylinder 301 is connected with clamp plate 303 through its driven second hydraulic column 302, when second pneumatic cylinder 301 drives clamp plate 303 and pushes down, the compressive property to the pile foundation detects, the front side of detection case 100 is connected with vibrating motor 501 through vibration seat 500, the rear side of detection case 100 is connected with third pneumatic cylinder 401 through vibration seat 500, vibration seat 500 passes through vibrating motor 501 drive vibrating mass 502 vibration, after third pneumatic cylinder 401 promoted the pile foundation to the position of vibrating mass 502, through the vibration of vibrating mass 502, the anti-seismic performance to the pile foundation detects.

As shown in fig. 1, 2, 3, 5 and 6, a support base 103 is fixed on both sides of the detection box 100, the detection box 100 is supported on the ground through the support base 103, the support base 103 supports the connecting frame 300 on the ground, the front side of the measuring tape 101 is printed with a printing scale 102, the measuring tape 101 displays the water level change in the detection box 100 through the printing scale 102 thereon, and the deformation amount of the pressing plate 303 after the pressure test is performed on the pressing plate 303;

a water passing frame 203 is fixed inside the supporting frame 202, when the supporting frame 202 goes up and down, water in the detection box 100 is left in the detection box 100 through the water passing frame 203, a first hydraulic column 201 is movably connected to the upper part of the first hydraulic cylinder 200, the first hydraulic column 201 is inserted into the detection box 100, the top end of the first hydraulic column 201 is fixed at the bottom of the supporting frame 202, and the supporting frame 202 is driven to go up and down by the first hydraulic cylinder 200 through the first hydraulic column 201 driven by the first hydraulic cylinder 200;

two third hydraulic cylinders 401 are fixed on one side of the upper part of the base 400 close to the detection box 100, a third hydraulic column 402 is movably connected inside the third hydraulic cylinders 401, a hydraulic push plate 403 is fixed at one end of the third hydraulic column 402 close to the detection box 100, the third hydraulic cylinders 401 drive the third hydraulic column 402, the hydraulic push plate 403 is pushed to push the pile foundation on the support frame 202 to the position of the vibrating block 502, and the pile foundation and the vibrating block 502 are tightly pressed;

the upper part of the vibration seat 500 close to one side of the detection box 100 is fixedly provided with two vibration motors 501, the vibration seat 500 drives a vibration block 502 to vibrate through the vibration motors 501, the output shaft of the vibration motors 501 is fixedly provided with the vibration block 502, the vibration block 502 is placed at the top of the detection box 100, the vibration motors 501 drive the vibration block 502, and when the pile foundation and the vibration block 502 are tightly pressed, the vibration performance of the pile foundation is detected;

earlier through first hydraulic cylinder 200 drive first hydraulic cylinder 201, drive support frame 202 to the inside upper portion of detection case 100, put the pile foundation after, through third hydraulic cylinder 401 drive third hydraulic cylinder 402, promote hydraulic pressure push pedal 403 and promote the pile foundation on support frame 202 to the position of vibrating mass 502, and compress tightly pile foundation and vibrating mass 502, rethread vibrating motor 501 driven vibrating mass 502 vibrates the pile foundation on the support frame 202, detect the anti-seismic performance of pile foundation.

As shown in fig. 1 to 4, the two sides of the detection box 100 are both fixed with a support base 103, the detection box 100 is supported on the ground through the support base 103, the support base 103 supports the connecting frame 300 on the ground, the front side of the measuring tape 101 is printed with a printing scale 102, the measuring tape 101 displays the water level change in the detection box 100 through the printing scale 102 thereon, and the deformation amount of the pressing plate 303 after the pressure test is performed on the pressing plate 303;

a water passing frame 203 is fixed inside the supporting frame 202, when the supporting frame 202 goes up and down, water in the detection box 100 is left in the detection box 100 through the water passing frame 203, a first hydraulic column 201 is movably connected to the upper part of the first hydraulic cylinder 200, the first hydraulic column 201 is inserted into the detection box 100, the top end of the first hydraulic column 201 is fixed at the bottom of the supporting frame 202, and the supporting frame 202 is driven to go up and down by the first hydraulic cylinder 200 through the first hydraulic column 201 driven by the first hydraulic cylinder 200;

two second hydraulic cylinders 301 are fixed inside the connecting frame 300, a second hydraulic column 302 is movably connected to the lower portion inside the second hydraulic cylinders 301, the connecting frame 300 drives the second hydraulic column 302 to move downwards through the second hydraulic cylinders 301, the pressing plate 303 descends, the pressing plate 303 is fixed to the bottom end of the second hydraulic column 302, the pressing plate 303 drives the pile foundation to press downwards under the action of the second hydraulic cylinders 301 driving the second hydraulic column 302, a scale block 304 is fixed in the middle of the rear side of the pressing plate 303, and the pressing plate 303 displays the reading of the scale 102 printed on the measuring scale 101 by the pressing plate 303 through the scale block 304;

after the anti-seismic performance of the pile foundation is detected, the third hydraulic column 402 is driven by the third hydraulic cylinder 401 to move away the hydraulic push plate 403, the first hydraulic column 201 is driven by the first hydraulic cylinder 200 to drop the support frame 202 to the lower part of the detection box 100, the second hydraulic column 302 driven by the second hydraulic cylinder 301 pushes the pressing plate 303 down to contact the pile foundation, the reading of the scale block 304 on the measuring scale 101 is recorded, the pressure resistance of the pile foundation is detected, water is drained into the detection box 100 again, the standing is carried out for a period of time, the reading of the water level change on the measuring scale 101 is detected, and the water absorption of the pile foundation is detected.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (6)

1. The utility model provides a pile foundation check out test set for being under construction is accepted, includes detection case (100), first pneumatic cylinder (200), link (300), base (400) and vibration seat (500), its characterized in that: four corners of detection case (100) below are provided with first pneumatic cylinder (200), the inside bottom joint of detection case (100) has support frame (202), the inside rear side of detection case (100) is fixed with measuring tape (101), the both sides of detection case (100) are connected with second pneumatic cylinder (301) through link (300), second pneumatic cylinder (301) are connected with clamp plate (303) through its driven second hydraulic cylinder (302), the front side of detection case (100) is connected with vibrating motor (501) through vibration seat (500), the rear side of detection case (100) is connected with third pneumatic cylinder (401) through vibration seat (500).

2. The pile foundation detection device for construction acceptance according to claim 1, wherein a support base (103) is fixed on each side of the detection box (100), and a printing scale (102) is printed on the front side of the measuring scale (101).

3. The pile foundation detection equipment for construction acceptance according to claim 1, wherein a water passing frame (203) is fixed inside the support frame (202), a first hydraulic column (201) is movably connected to the upper portion of the first hydraulic cylinder (200), the first hydraulic column (201) is inserted into the detection box (100), and the top end of the first hydraulic column (201) is fixed to the bottom of the support frame (202).

4. The pile foundation detection device for construction acceptance according to claim 1, wherein two second hydraulic cylinders (301) are fixed inside the connecting frame (300), a second hydraulic column (302) is movably connected to the lower portion inside the second hydraulic cylinders (301), a pressing plate (303) is fixed to the bottom end of the second hydraulic column (302), and a scale block (304) is fixed to the middle of the rear side of the pressing plate (303).

5. The pile foundation detection equipment for construction acceptance according to claim 1, wherein two third hydraulic cylinders (401) are fixed on one side of the upper portion of the base (400) close to the detection box (100), a third hydraulic column (402) is movably connected inside the third hydraulic cylinders (401), and a hydraulic push plate (403) is fixed at one end, close to the detection box (100), of the third hydraulic column (402).

6. The pile foundation detection device for construction acceptance according to claim 1, wherein two vibrating motors (501) are fixed to the upper portion of the vibrating base (500) close to one side of the detection box (100), a vibrating block (502) is fixed to an output shaft of each vibrating motor (501), and the vibrating block (502) is placed at the top of the detection box (100).

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